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Publikationsliste für
Markus Lukacevic
E202 - Institut für Mechanik der Werkstoffe und Strukturen
als Autorin / Autor bzw. wesentlich beteiligte Person

94 Datensätze (2009 - 2022)


Zeitschriftenartikel


  1. M. Autengruber, M. Lukacevic, J. Füssl:
    "Finite-Element-Based Moisture Transport Model for Wood Including Free Water Above the Fiber Saturation Point";
    International Journal of Heat and Mass Transfer, 161 (2020), 120228.

  2. M. Autengruber, M. Lukacevic, C. Gröstlinger, J. Eberhardsteiner, J. Füssl:
    "Numerical Assessment of Wood Moisture Content-Based Assignments to Service Classes in EC5 and a Prediction Concept of Moisture-Induced Stresses Solely Using Relative Humidity Data";
    Engineering Structures, 245 (2021), 112849.

  3. M. Autengruber, M. Lukacevic, C. Gröstlinger, J. Füssl:
    "Finite-Element-Based Prediction of Moisture-Induced Crack Patterns for Cross Sections of Solid Wood and Glued Laminated Ttmber Exposed to a Realistic Climate Condition";
    Construction and Building Materials, 271 (2021), 121775.

  4. M. Autengruber, M. Lukacevic, G. Wenighofer, R. Mauritz, J. Füssl:
    "Finite-element-based concept to predict stiffness, strength, and failure of wood composite I-joist beams under various loads and climatic conditions";
    Engineering Structures, 245 (2021), 112908; S. 1 - 22.

  5. J. Füssl, M. Li, M. Lukacevic, J. Eberhardsteiner, C. Martin:
    "Comparison of Unit Cell-Based Computational Methods for Predicting the Strength of Wood";
    Engineering Structures, 141 (2017), S. 427 - 443.

  6. J. Füssl, M. Lukacevic, G. Kandler, J. Eberhardsteiner:
    "A Comprehensive Mechanical Modeling Approach for the Design of Wood-based Products";
    IACM Expressions, 35 (2014), S. 8 - 12.

  7. C. Hackspiel, K. de Borst, M. Lukacevic:
    "A Numerical Simulation Tool for Wood Grading Model Development";
    Wood Science and Technology, 48 (2014), 3; S. 633 - 649.

  8. C. Hackspiel, K. de Borst, M. Lukacevic:
    "A Numerical Simulation Tool for Wood grading: Model Validation and Parameter Studies";
    Wood Science and Technology, 48 (2014), 3; S. 651 - 669.

  9. H. Hengl, W. Kluger-Eigl, M. Lukacevic, R. Blab, J. Füssl:
    "Horizontal Deformation Resistance of Paving Block Superstructures - Influence of Paving Block Type, Laying Pattern, and Joint Behaviour";
    International Journal of Pavement Research and Technology, 11 (2018), S. 846 - 860.

  10. G. Kandler, M. Lukacevic, J. Füssl:
    "An Algorithm for the Geometric Reconstruction of Knots within Timber Boards Based on Fibre Angle Measurements";
    Construction and Building Materials, 124 (2016), S. 945 - 960.

  11. G. Kandler, M. Lukacevic, J. Füssl:
    "Ein Algorithmus zur Rekonstruktion von 3D Astgeometrien und die Einbettung dieser Information in stochastische Konzepte für Brettschichtholz";
    ÖIAZ - Österreichische Ingenieur- und Architektenzeitschrift, 162 (2017), S. 105 - 112.

  12. G. Kandler, M. Lukacevic, J. Füssl:
    "Experimental Study on Glued Laminated Timber Beams with Well-Known Knot Morphology";
    European Journal of Wood and Wood Products, 76 (2018), S. 1435 - 1452.

  13. G. Kandler, M. Lukacevic, S. Wolff, J. Füssl:
    "Stochastic Engineering Framework for Timber Structural Elements";
    Beton- und Stahlbetonbau, 113 (2018), S. 96 - 102.

  14. G. Kandler, M. Lukacevic, C. Zechmeister, S. Wolff, J. Füssl:
    "Stochastic Engineering Framework for Timber Structural Elements and Its Application to Glued Laminated Timber Beams";
    Construction and Building Materials, 190 (2018), S. 573 - 592.

  15. T. Kiefer, H. Kariem, M. Lukacevic, J. Füssl:
    "The Compressive Strength of Vertically Perforated Clay Block Masonry Predicted by Means of a Unit-Cell Type Numerical Simulation Tool Taking Discrete Cracking into Account";
    Construction and Building Materials, 150 (2017), S. 24 - 34.

  16. M. Li, J. Füssl, M. Lukacevic, J. Eberhardsteiner, C. Martin:
    "A Numerical Upper Bound Formulation with Sensibly-Arranged Velocity Discontinuities and Orthotropic Material Strength Behaviour";
    Journal of Theoretical and Applied Mechanics, 56 (2018), 2; S. 417 - 433.

  17. M. Li, J. Füssl, M. Lukacevic, J. Eberhardsteiner, C. Martin:
    "An Algorithm for Adaptive Introduction and Arrangement of Velocity Discontinuities within 3D Finite-Element-Based Upper Bound Limit Analysis Approaches";
    Computer Methods in Applied Mechanics and Engineering, 348 (2019), S. 875 - 911.

  18. M. Li, J. Füssl, M. Lukacevic, J. Eberhardsteiner, C. Martin:
    "Strength Predictions of Clear Wood at Multiple Scales Using Numerical Limit Analysis Approaches";
    Computers and Structures, 196 (2018), S. 200 - 216.

  19. M. Li, J. Füssl, M. Lukacevic, C. Martin, J. Eberhardsteiner:
    "Bending Strength Predictions of Cross-Laminated Timber Plates Subjected to Concentrated Loading Using 3D Finite-Element-Based Limit Analysis Approaches";
    Composite Structures, 220 (2019), S. 912 - 925.

  20. M. Lukacevic, M. Autengruber, T. Raimer, J. Eberhardsteiner, J. Füssl:
    "Effect of Cast-In-Place Concrete Application on Moisture Distribution in Timber-Concrete Composite Floors with Notched Connections, Investigated Via Finite Element Simulations";
    Journal of Building Engineering, 42 (2021), 103005.

  21. M. Lukacevic, J. Füssl:
    "Application of a Multisurface Discrete Crack Model for Clear Wood Taking into Account the Inherent Microstructural Characteristics of Wood Cells";
    Holzforschung, 70 (2016), 9; S. 845 - 853.

  22. M. Lukacevic, J. Füssl:
    "Numerical Simulation Tool for Wooden boards with a Physically Based Approach to Identify Structural Failure";
    European Journal of Wood and Wood Products, 72 (2014), 4; S. 497 - 508.

  23. M. Lukacevic, J. Füssl, J. Eberhardsteiner:
    "Discussion of Common and New Indicating Properties for the Strength grading of Wooden Boards";
    Wood Science and Technology, 49 (2015), S. 551 - 576.

  24. M. Lukacevic, J. Füssl, J. Eberhardsteiner:
    "Eine numerische Methode zur Beschreibung von Holzversagen - von der Holzzelle bis zu Holzprodukten";
    ÖIAZ - Österreichische Ingenieur- und Architektenzeitschrift, 162 (2017), S. 17 - 24.

  25. M. Lukacevic, J. Füssl, M. Griessner, J. Eberhardsteiner:
    "Performance Assessment of a Numerical Simulation Tool for Wooden Boards with Knots by Means of Full-Field Deformation Measurements";
    Strain, 50 (2014), S. 301 - 317.

  26. M. Lukacevic, J. Füssl, R. Lampert:
    "Failure Mechanisms of Clear Wood Identified at Wood Cell Level by an Approach Based on the Extended Finite Element Method";
    Engineering Fracture Mechanics, 144 (2015), S. 158 - 175.

  27. M. Lukacevic, G. Kandler, M. Hu, A. Olsson, J. Füssl:
    "A 3D Model for Knots and Related Fiber Deviations in Sawn Timber for Prediction of Mechanical Properties of Boards";
    Materials & Design, 166 (2019), S. 107617.

  28. M. Lukacevic, W. Lederer, J. Füssl:
    "A Microstructure-Based Multisurface Failure Criterion for the Description of Brittle and Ductile Failure Mechanisms of Clear-Wood";
    Engineering Fracture Mechanics, 176 (2017), S. 83 - 99.

  29. S. Pech, G. Kandler, M. Lukacevic, J. Füssl:
    "Metamodel Assisted Optimization of Glued Laminated Timber Beams by Using Metaheuristic Algorithms";
    Engineering Applications of Artificial Intelligence, 79 (2019), S. 129 - 141.

  30. S. Pech, M. Lukacevic, J. Füssl:
    "A Hybrid Multi-Phase Field Model to Describe Cohesive Failure in Orthotropic Materials, Assessed by Modeling Failure Mechanisms in Wood";
    Engineering Fracture Mechanics, 271 (2022), 108591; S. 1 - 19.

  31. S. Pech, M. Lukacevic, J. Füssl:
    "A Robust Multisurface Return-Mapping Algorithm and Its Implementation in Abaqus";
    Finite Elements in Analysis and Design, 190 (2021), 103531; S. 1 - 9.

  32. C. Vida, M. Lukacevic, J. Eberhardsteiner, J. Füssl:
    "Modeling Approach to Estimate the Bending Strength and Failure Mechanisms of Glued Laminated Timber Beams";
    Engineering Structures, 255 (2022), 113862.


Buchbeiträge


  1. J. Füssl, M. Lukacevic, S. Pillwein, H. Pottmann:
    "Computational Mechanical Modelling of Wood - From Microstructural Characteristics Over Wood-Based Products to Advanced Timber Structures";
    in: "Digital Wood Design, Lecture Notes in Civil Engineering", Springer, Cham, 2019, ISBN: 978-3-030-03675-1, S. 639 - 673.


Beiträge in Tagungsbänden


  1. M. Autengruber, M. Lukacevic, J. Eberhardsteiner, J. Füssl:
    "A Numerical Simulation Tool for Coupled Heat and Mass Transfer in Wood";
    in: "Programme & Book of Abstracts on Computational Methods in Wood Mechanics - from Material Properties to Timber Structures (CompWood 2017)", TU Verlag, Wien, 2017, ISBN: 978-3-903024-49-6, S. 62.

  2. M. Autengruber, M. Lukacevic, J. Eberhardsteiner, J. Füssl:
    "A Numerical Simulation Tool for Coupled Heat and Mass Transfer in Wood";
    in: "Book of Abstracts of the XXI. St. Inter-Institute Seminar for Young Researchers", Department of Structural Mechanics, Budapest University of Technology and Economics, 2017, S. 6.

  3. M. Autengruber, M. Lukacevic, J. Füssl:
    "Heat and Mass Transfer Model for Wood Under Real Climate Conditions";
    in: "Book of Abstracts of the International Conference on Computational Methods in Wood Mechanics - from Material Properties to Timber Structures (CompWood 2019)", Linnaeus University, 2019, ISBN: 978-91-88898-64-7.

  4. F. Brandstätter, M. Autengruber, M. Lukacevic, J. Füssl:
    "Numerical Simulation of Moisture-Induced Cracking in Wood exposed to Indoor Climate Conditions";
    in: "Proceedings of the 8th European Concress on Computational Methods in Applied Sciences and Engineering (ECCOMAS Congress 2022)", International Center for Numerical Methods in Engineering (CIMNE), 2022, Paper-Nr. 536, 1 S.

  5. J. Füssl, M. Li, M. Lukacevic, J. Eberhardsteiner, C. Martin:
    "Three Different Methods for Predicting the Strength Behavior of Clear Wood - A Performance Comparison and Basis for a Combined Approach";
    in: "CD-ROM Proceedings of the World Conference on Timber Engineering (WCTE 2016)", J. Eberhardsteiner, W. Winter, A. Fadai, M. Pöll (Hrg.); herausgegeben von: Vienna University of Technology; Grafisches Zentrum HTU GmbH, Vienna, 2016, ISBN: 978-3-903039-00-1, Paper-Nr. 863, 10 S.

  6. J. Füssl, M. Lukacevic, G. Kandler, J. Eberhardsteiner:
    "A Comprehensive Mechanical Modeling Approach for the Optimization of Wood-Based Products";
    in: "Proceedings of the EUROMECH Colloquium 556 on Theoretical, Numerical, and Experimental Analyses in Wood Mechanics", TU Dresden, 2015, ISBN: 978-3-00-049643-1, S. 40 - 41.

  7. C. Hackspiel, K. Hofstetter, M. Lukacevic, J. Eberhardsteiner:
    "A Numerical Simulation Tool for Wood Grading";
    in: "Proceeding of the IV European Conference on Computational Mechanics (ECCM 2010)", ECCOMAS, 2010, 2 S.

  8. C. Hackspiel, K. Hofstetter, M. Lukacevic, J. Eberhardsteiner:
    "Computational Analysis of the Strength Reducing Effect of Knots in Timber";
    in: "Proceedings of the 9th World Congress on Computational Mechanics and 4th Asian Pacific Congress on Computational Mechanics - Abstracts", Centre for Infrastructure Engineering and Safety, Sydney, Australia, 2010, ISBN: 978-0-9808244-0-7, 1 S.

  9. C. Hackspiel, M. Lukacevic, K. Hofstetter:
    "Modeling of Growth Features for Future";
    in: "Proceedings of the International Conference on Grading of Timber and Engineered Wood Products", WoodWisdom-Net, Helsinki, 2011, (eingeladen), S. 84 - 89.

  10. G. Kandler, M. Lukacevic, J. Füssl:
    "Experimental and Numerical Investigations on the Mechanical Behavior of Glued Laminated Timber";
    in: "Programme & Book of Abstracts on Computational Methods in Wood Mechanics - from Material Properties to Timber Structures (CompWood 2017)", TU Verlag, Wien, 2017, ISBN: 978-3-903024-49-6, S. 36.

  11. G. Kandler, M. Lukacevic, J. Füssl:
    "From the Knot Morphology of Individual Timber Baords to the Mechanical Properties of Glued Laminated Timber";
    in: "CD-ROM Proceedings of the World Conference on Timber Engineering (WCTE 2016)", J. Eberhardsteiner, W. Winter, A. Fadai, M. Pöll (Hrg.); herausgegeben von: Vienna University of Technology; Grafisches Zentrum HTU GmbH, Vienna, 2016, ISBN: 978-3-903039-00-1, Paper-Nr. 879, 10 S.

  12. M. Li, J. Füssl, M. Lukacevic, J. Eberhardsteiner:
    "Numerical Limit Analysis Approaches for Strength Predictions of Cross-Laminated Timber Plates";
    in: "Programme & Book of Abstracts on Computational Methods in Wood Mechanics - from Material Properties to Timber Structures (CompWood 2017)", TU Verlag, Wien, 2017, ISBN: 978-3-903024-49-6, S. 90.

  13. M. Li, J. Füssl, M. Lukacevic, J. Eberhardsteiner, C. Martin:
    "A Number Limit Analysis Approach for Predicting Strength of Clear Wood";
    in: "CD-ROM Proceedings of the World Conference on Timber Engineering (WCTE 2016)", J. Eberhardsteiner, W. Winter, A. Fadai, M. Pöll (Hrg.); herausgegeben von: Vienna University of Technology; Grafisches Zentrum HTU GmbH, Vienna, 2016, ISBN: 978-3-903039-00-1, Paper-Nr. 90, 10 S.

  14. M. Lukacevic, K. de Borst, J. Füssl, J. Eberhardsteiner:
    "Influence of Different Knot Groups on Effective Mechanical Properties of Solid-Wood Based Products Determined by Means of 3D Finite-Element Simulations";
    in: "Book of Abstracts - 8th European Solid Mechanics Conference (ESMC 2012)", herausgegeben von: TU Graz; TU Graz, 2012, ISBN: 978-3-85125-223-1, 2 S.

  15. M. Lukacevic, J. Füssl:
    "A Criterion for the Effective Bending Strength of Wooden Boards with Knots Derived by a 3 D Finite-Element Tool";
    in: "Forschungskolloquium Holzbau "Forschung und Praxis"", Universität Stuttgart, Stuttgart, 2012.

  16. M. Lukacevic, J. Füssl, J. Eberhardsteiner:
    "A Microstructure-Based Multisurface Failure Criterion for the Description of Brittle and Ductile Failure Mechanisms of Clear-Wood";
    in: "Programme & Book of Abstracts on Computational Methods in Wood Mechanics - from Material Properties to Timber Structures (CompWood 2017)", TU Verlag, Wien, 2017, ISBN: 978-3-903024-49-6, S. 28.

  17. M. Lukacevic, J. Füssl, J. Eberhardsteiner:
    "A Numerical Approach to Describe Failure of Wood - From the Wood Cell Level up to Wood-Based Products";
    in: "Proceedings of the 2015 Conference of the ASCE Engineering Mechanics Institute (EMI 2015)", American Society of Civil Engineers (ASCE), 2015.

  18. M. Lukacevic, J. Füssl, J. Eberhardsteiner:
    "A Numerical Approach to Describe Failure of Wood - From the Wood Cell Level Up to Wood-Based Products";
    in: "CD-ROM Proceedings of the World Conference on Timber Engineering (WCTE 2016)", J. Eberhardsteiner, W. Winter, A. Fadai, M. Pöll (Hrg.); herausgegeben von: Vienna University of Technology; Grafisches Zentrum HTU GmbH, Vienna, 2016, ISBN: 978-3-903039-00-1, Paper-Nr. 306, 9 S.

  19. M. Lukacevic, J. Füssl, J. Eberhardsteiner:
    "Influence of Knot Groups on Effective Mechanical Properties of Solid - Wood Based Products Determined by Means of 3D Finite - Element Simulations";
    in: "Proceedings of the XII. International Conference on Computational Plasticity (COMPLAS XII)", International Center for Numerical Methods in Engineering (CIMNE), 2013, ISBN: 978-84-941531-5-0, 1 S.

  20. M. Lukacevic, J. Füssl, J. Eberhardsteiner:
    "Simulating Failure Mechanisms in Wooden Boards with Knots by Means of a Microstructure-Based Multisurface Failure Criterion";
    in: "Proceedings of the 2018 World Conference on Timber Engineering (WCTE 2018)", The Korean Society of Wood Science Technology, 2018, 8 S.

  21. S. Pech, G. Kandler, M. Lukacevic, J. Füssl:
    "Metamodel Assisted Optimization of Glued Laminated Timber Beams by Using Metaheuristic Algorithms";
    in: "Book of Abstracts of the 90th Annual Meeting of the International Association of Applied Mathematics and Mechanics (GAMM 2019)", J. Eberhardsteiner, J. Schöberl (Hrg.); TU Verlag, 2019, ISBN: 978-3-903024-84-7, S. 438.

  22. S. Pech, M. Lukacevic, J. Füssl:
    "Phase Field Method-Based Modeling of Fracture in Wood";
    in: "Programme & Proceedings of the China-Austria Forum for Postgraduates of Civil Engineering", J. Zhang, B. Pichler (Hrg.); Vienna University of Technology, 2019, S. 98 - 101.

  23. S. Pech, M. Lukacevic, J. Füssl:
    "Phase Field Method-Based Modeling of Fracture in Wood";
    in: "Book of Abstracts of the International Conference on Computational Methods in Wood Mechanics - from Material Properties to Timber Structures (CompWood 2019)", Linnaeus University, 2019, ISBN: 978-91-88898-64-7, S. 17.

  24. R. Reismüller, M. Lukacevic, T. Kiefer, J. Füssl:
    "A Finite-Element-Based Unit Cell Approach for Simulating Vertically Perforated Clay Block Masonry";
    in: "Proceedings of the 8th European Concress on Computational Methods in Applied Sciences and Engineering (ECCOMAS Congress 2022)", International Center for Numerical Methods in Engineering (CIMNE), 2022, Paper-Nr. 846, 1 S.


Vorträge und Posterpräsentationen (mit Tagungsband-Eintrag)


  1. M. Autengruber, M. Lukacevic, C. Vida, S. Pech, J. Füssl:
    "Computergestützte Modellierung im Holzbau - Herausforderungen und Möglichkeiten";
    Vortrag: 25. Dresdner Baustatik-Seminar "Realität - Modellierung - Tragwerksplanung", Dresden (Deutschland); 15.10.2021; in: "25. Dresdner Baustatik-Seminar: Realität - Modellierung - Tragwerksplanung", TU-Dresden (Hrg.); (2021), ISSN: 1615-9705; S. 131 - 160.

  2. M. Lukacevic, J. Füssl, S. Pech, C. Vida, J. Eberhardsteiner:
    "Computational Mechanics Concepts for Wood-Based Products and Timber Structural Elements";
    Vortrag: World Conference on Timber Engineering (WCTE2021), Santiago, Chile; 09.08.2021 - 12.08.2021; in: "Proceedings of WCTE 2021 - World Conference on Timber Engineering", Santiago, Chile (2021).


Vorträge und Posterpräsentationen (ohne Tagungsband-Eintrag)


  1. M. Lukacevic:
    "A Criterion for the Effective Strength of Wooden Boards with Knots Derived by a 3D Finite-Element Tool";
    Poster: COST Young Researchers' Forum at the 8th FTP Conference, Barcelona, Spain; 11.03.2013 - 12.03.2013.

  2. M. Lukacevic:
    "A Microstructure-Based Multisurface Failure Criterion and Its Application to Wooden Boards with Knots";
    Vortrag: 6th European Conference on Computational Fluid Dynamics (ECCM - ECFD 2018), Glasgow, United Kingdom; 11.06.2018 - 15.06.2018.

  3. M. Lukacevic:
    "A Microstructure-Based Multisurface Failure Criterion for the Description of Brittle and Ductile Failure Mechanisms of Clear-Wood";
    Vortrag: Conference on Computaional Methods in Wood Mechanics - From Material Properties to Timber Structures (CompWood 2017), Vienna, Austria; 07.06.2017 - 09.06.2017.

  4. M. Lukacevic:
    "A Numerical Approach to Describe Failure of Wood - From the Wood Cell Level up to Wood-Based Products";
    Vortrag: 2015 Conference of the ASCE Engineering Mechanics Institute (EMI 2015), Stanford, CA, USA; 16.06.2015 - 20.06.2015.

  5. M. Lukacevic:
    "A Numerical Approach to Describe Failure of Wood - From the Wood Cell Level up to Wood-Based Products";
    Vortrag: Engineering Mechanics Institute Conference 2016 (EMI 2016), Nashville, Tennessee, USA; 22.05.2016 - 25.05.2016.

  6. M. Lukacevic:
    "A Numerical Approach to Describe Failure of Wood - From the Wood Cell Level up to Wood-Based Products";
    Vortrag: 7th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS Congress 2016), Crete Island, Greece; 05.06.2016 - 10.06.2016.

  7. M. Lukacevic:
    "A Numerical Approach to Describe Failure of Wood - From the Wood Cell Level Up to Wood-Based Products";
    Vortrag: World Conference on Timber Engineering (WCTE 2016), Vienna, Austria; 22.08.2016 - 25.08.2016.

  8. M. Lukacevic:
    "Computational Mechanics Concepts for Mass Timber Products";
    Vortrag: Engineering Mechanics Institute Conference and Probabilistic Mechanics & Reliability Conference (EMI/PMC 2021), USA; 25.05.2021 - 28.05.2021.

  9. M. Lukacevic:
    "Computational Mechanics Concepts for Wood-Based Products and Timber Structural Elements";
    Vortrag: 14th World Congress in Computational Mechanics (WCCM) & ECCOMAS Congress 2020, Virtual Congress; 11.01.2021 - 15.01.2021.

  10. M. Lukacevic:
    "Computational Modeling Approach for Wood-Based Products and Timber Structural Elements";
    Vortrag: XVI. International Conference on Computational Plasticity, Fundamentals and Applications ( COMPLAS 2021), Barcelona, Spain; 07.09.2021 - 10.09.2021.

  11. M. Lukacevic:
    "Fracture Simulations of Wooden Boards with Knots as a Basis for Timber Engineering Design Concepts";
    Vortrag: XV. International Conference on Computational Plasticity - Fundamentals and Applications (COMPLAS 2019), Barcelona, Spain; 03.09.2019 - 05.09.2019.

  12. M. Lukacevic:
    "From the Failure Mechanisms of Individual Wooden Boards to the Mechanical Behavior of Timber Structural Elements";
    Vortrag: Engineering Mechanics Institute Conference 2018 (EMI 2018), Cambridge, Massachusetts, USA; 29.05.2018 - 01.06.2018.

  13. M. Lukacevic:
    "Influence of Different Knot Groups on Effective Mechanical Properties of Solid-Wood Based Products Determined by Means of 3D Finite-Element Simulations";
    Vortrag: 6th European Congress on Computational Methods in Applied Sciences and Engineering (ECCOMAS 2012), Wien; 10.09.2012 - 14.09.2012.

  14. M. Lukacevic:
    "Influence of Knot Configuration on Effective Strength Properties of Wooden Boards Determined";
    Vortrag: Forschungskolloquium Holzbau "Forschung und Praxis", Stuttgart; 12.03.2012 - 13.03.2012.

  15. M. Lukacevic:
    "Influence of knot groups on effective mechanical properties of solid-wood based products determined by means of 3D Finite-Element simulations";
    Vortrag: 12th International Conference on Computational Plasticity (COMPLAS XII), Barcelona, Spain; 03.09.2013 - 05.09.2013.

  16. M. Lukacevic:
    "Influence of knot groups on effective mechanical properties of solid-wood based products determined by means of 3D Finite-Element simulations";
    Vortrag: International Conference of the Engineering Mechanics Institute (EMI 2013), Evanston, IL, USA; 04.08.2013 - 07.08.2013.

  17. M. Lukacevic:
    "Numerical Simulation Tool for Wooden Boards with Knots";
    Vortrag: EMI 2014 Engineering Mechanics Institute Conference, Hamilton, Canada; 05.08.2014 - 08.08.2014.

  18. M. Lukacevic:
    "Numerical Simulation Tool for Wooden Boards with Knots";
    Vortrag: 5th European Conference on Computational Mechanics (ECCM V), Barcelona, Spain; 20.07.2014 - 25.07.2014.

  19. M. Lukacevic:
    "Simulating Failure Mechanisms in Wooden Boards with Knots by Means of a Microstructure-Based Multisurface Failure Criterion";
    Vortrag: World Conference on Timber Engineering (WCTE 2018), Seoul, Republic of Korea; 20.08.2018 - 23.08.2018.

  20. M. Lukacevic, J. Füssl, S. Pech, J. Eberhardsteiner:
    "Simulation of Failure Mechanisms in Wooden Boards with Knots as a Basis for Timber Engineering Design Cencepts";
    Poster: Engineering Mechanics Institute 2019 Conference, Pasadena, CA, USA; 18.06.2019 - 21.06.2019.

  21. S. Pech, M. Lukacevic, J. Füssl:
    "Phase field method-based modeling of fracture in wood";
    Vortrag: 16. International Conference on Computational Plasticity, Fundamentals and Applications, Barcelona, Spain; 07.09.2021 - 09.09.2021.


Dissertationen (eigene und begutachtete)


  1. M. Autengruber:
    "Numerical Simulation Concepts for Moisture Transport in Wood and Wood-Based Products, Below and Above the Fiber Saturation Point, to Predict Moisture-Induced Failure Mechanisms";
    Betreuer/in(nen), Begutachter/in(nen): M. Lukacevic, J. Füssl, S. Fortino, E. Serrano; Institut für Mechanik der Werkstoffe und Strukturen, 2021; Rigorosum: 03/2021.

  2. M. Lukacevic:
    "Numerical Simulation of Wooden Boards Considering Morphological Characteristics and Complex Failure Processes";
    Betreuer/in(nen), Begutachter/in(nen): J. Eberhardsteiner, M. Kaliske; Institut für Mechanik der Werkstoffe und Strukturen, 2014; Rigorosum: 29.07.2014.


Diplom- und Master-Arbeiten (eigene und betreute)


  1. M. Autengruber:
    "Modellierung und numerische Simulation des Feuchte- und Temperaturverhaltens von Holz-Aluminium-Verbundträgern";
    Betreuer/in(nen): M. Lukacevic, J. Füssl, J. Eberhardsteiner; Institut für Mechanik der Werkstoffe und Strukturen, 2016; Abschlussprüfung: 17.06.2016.

  2. F. Brandstätter:
    "Numerisches Simulationskonzept zur Bestimmung der Feuchtebeanspruchung und dem resultierenden Rissverhalten in unterschiedlichen Holzquerschnitten in Abhängigkeit des Standortes in Österreich";
    Betreuer/in(nen): M. Autengruber, M. Lukacevic, J. Füssl; Institut für Mechanik der Werkstoffe un Strukturen, 2020; Abschlussprüfung: 25.09.2020.

  3. M. Griessner:
    "Bending Strength of Wooden Boards with Knots - Evaluation of Experiments Using Full-Field Deformation Measurements as a Basis for the Optimization of a 3D Numerical Simulation Tool";
    Betreuer/in(nen): M. Lukacevic, J. Füssl; Institut für Mechanik der Werkstoffe und Strukturen, 2013; Abschlussprüfung: 26.04.2013.

  4. C. Gröstlinger:
    "Numerische Simulation des feuchteinduzierten Rissverhaltens von Holzquerschnitten unter realer Klimabeanspruchung";
    Betreuer/in(nen): M. Autengruber, M. Lukacevic, J. Füssl; Institut für Mechanik der Werkstoffe und Strukturen, 2018; Abschlussprüfung: 19.01.2018.

  5. P. Hacker:
    "3D Finite Element Modeling of a Form Fitting Cross Laminated Timber Connection";
    Betreuer/in(nen): J. Füssl, M. Lukacevic; Institut für Mechanik der Werkstoffe und Strukturen, 2020; Abschlussprüfung: 17.12.2020.

  6. R. Lampert:
    "Failure Modes of Wood Cells Identified by an Approach Based on the Extended Finite Element Method";
    Betreuer/in(nen): M. Lukacevic, J. Füssl, J. Eberhardsteiner; Institut für Mechanik der Werkstoffe und Strukturen, 2014; Abschlussprüfung: 2014.

  7. M. Lukacevic:
    "Validation and Optimization of a Numerical Simulation Tool for Wood Grading";
    Betreuer/in(nen): C. Hackspiel, K. Hofstetter, J. Eberhardsteiner; Institut für Mechanik der Werkstoffe und Strukturen, 2009; Abschlussprüfung: 20.03.2009.

  8. M. Macho:
    "Das mechanische Verhalten von Holz-Beton-Verbunddecken, untersucht mittels numerischer Simulationen";
    Betreuer/in(nen): J. Füssl, M. Lukacevic; Institut für Mechanik der Werkstoffe und Strukturen, 2021; Abschlussprüfung: 26.11.2021.

  9. S. Pillwein:
    "Gestaltung von Freiform-Holztragwerken durch elastische Verformung";
    Betreuer/in(nen): J. Füssl, M. Lukacevic; Institut für Mechanik der Werkstoffe und Strukturen, 2017; Abschlussprüfung: 24.11.2017.

  10. T. Raimer:
    "Der Einfluss des Aufbringens von Frischbeton auf die Feuchtigkeitsverteilung in Holz-Beton-Verbundkonstruktionen mit Kerven, untersucht mittels numerischer Simulationen";
    Betreuer/in(nen): M. Autengruber, M. Lukacevic, J. Füssl; Institut für Mechanik der Werkstoffe un Strukturen, 2020; Abschlussprüfung: 23.04.2020.

  11. M. Senoner:
    "3D-Finite-Elemente-Modell zur mechanischen Bewertung eines neuen Fenstermontagesystems unter Verwendung eines multifunktionalen Füllmaterials";
    Betreuer/in(nen): J. Füssl, M. Lukacevic; Institut für Mechanik der Werkstoffe und Strukturen, 2021; Abschlussprüfung: 22.10.2021.

  12. C. Vida:
    "Computergestützter Modellierungsansatz zur Bestimmung der Biegefestigkeit von Brettschichtholzträgern unter Berücksichtigung von Astgruppen und quasi-sprödem Materialversagen";
    Betreuer/in(nen): M. Lukacevic, S. Pech, J. Füssl; Institut für Mechanik der Werkstoffe un Strukturen, 2020; Abschlussprüfung: 25.09.2020.